58475907 Procedimiento Para El Diseno de Vehiculo Categoria Mini Baja Sae
SAE Mini Baja
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SAE Mini Baja Engineering Analysis Chris Bennett, Eric Lockwood, Anthony McClinton, Robin McRee, Colin Pemberton November 18, 2013
Transcript of SAE Mini Baja
SAE Mini BajaEngineering Analysis
Chris Bennett, Eric Lockwood, Anthony McClinton,
Robin McRee, Colin Pemberton
November 18, 2013
Overview
• Design Problem
• SolidWorks Simulation
• Refined Frame Designs
• Analysis Assumptions
• Strength Tests
• Simulation Results
• Project Plan
• Conclusion
Anthony McClinton 2
Problem Statement
• NAU has not won an SAE Baja event.
• Goal is to design the lightest possible frame within the SAE rules.
Anthony McClinton 3
SolidWorks Simulation
• Beam elements for frame analysis
• Tetrahedral elements for solid components
Colin Pemberton 4
Refined Frame Designs
Colin Pemberton
Design 5 Design 6
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Refined Frame Designs
Colin Pemberton
Design 8Design 7
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Simple Loading Case
• 6000 lb distributed load on the roof
• Design with highest FOS
• Design with most even stress distribution
• Advanced tests performed on the best design
Colin Pemberton 7
Simple Loading Results
Colin Pemberton
Design Max Stress [ksi] Max Deflection [in] Yield Safety Factor
5 61.61 0.256 1.08
6 61.20 0.210 1.09
7 60.16 0.202 1.11
8 56.89 0.206 1.17
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Frame Impact Tests
• Drop Test
• Front Collision Test
• Rear Collision Test
• Side Impact Test
• Static simulations at maximum impact acceleration
• All are worst-case scenario
Eric Lockwood 9
Drop Test
Eric Lockwood 10
Eric Lockwood
Drop Test
𝐹 = 𝑚 ∙𝑔ℎ
𝑡
• F = force
• m = mass
• g = acceleration of gravity
• h = drop height
• t = impulse time
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Front Collision Test
Eric Lockwood 12
Rear Collision Test
Eric Lockwood 13
Side Impact Test
Eric Lockwood 14
Impact Tests
Eric Lockwood
𝐹 = 𝑚 ∙𝑉0𝑡
• F = force
• m = mass
• V0 = initial velocity
• t = impulse time
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Analysis Assumptions
• Frame Weight of 100.29 lb
• Drivetrain Weight of 120 lb
• Suspension Weight 50 lb per corner
• Driver Weight of 250 lb
• AISI 4130 Tubing, 1.25 in Diameter, 0.065 Thickness
Eric Lockwood 16
Loading Example
Eric Lockwood 17
Drop Test Deflection
Robin McRee 18
Drop Test Safety Factor
Robin McRee 19
Front Collision Deflection
Robin McRee 20
Front Collision Safety Factor
Robin McRee 21
Rear Collision Deflection
Robin McRee 22
Rear Collision Safety Factor
Robin McRee 23
Side Impact Deflection
Robin McRee 24
Side Impact Safety Factor
Robin McRee 25
Impact Results Summary
Robin McRee
Test Max Deflection [in] Yield Safety Factor
Drop 0.089 5.32
Front Collision 0.135 2.90
Rear Collision 0.263 1.45
Side Impact 0.363 1.01
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Tab Shear Test
• Driver harness mounts
• Suspension mounts
• Drivetrain mounts
• Extreme loading cases
• Intentionally overdesigned
• Adds little additional weight
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Driver Harness Mount Deflection
Chris Bennett 28
Driver Harness Mount Safety Factor
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Frame Tab Deflection
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Frame Tab Safety Factor
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Tab Shear Results
Chris Bennett
Test Max Deflection [in] Yield Safety Factor
Driver Harness 0.001 4.70
Frame Tab 0.024 1.50
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Engineering Design Targets
Anthony McClinton
Requirement Target Actual
Length [in] 108 88.175
Width [in] 40 32
Height [in] 41 44.679
Bending Strength [N-m] 395 485.95
Bending Stiffness [N-m2] 2789 3631.14
Wall Thickness [in] 0.062 0.065
Pass Safety Rules TRUE TRUE
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Project Plan
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Conclusion
• Problem Overview - NAU has not won an SAE Mini Baja competition. The Team will build the lightest possible frame.
• SolidWorks Simulation - Beam analysis used for frame. Tetrahedral analysis used for tabs.
• Refined frame designs – Designs 5 through 8 were analyzed. Design 8 had the highest safety factor.
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Conclusion
• Drop, front impact, rear impact, and side impact tests were performed. Design 8 passed all tests.
• Seat belt harness mount and frame tabs were analyzed. Both are well within safety limits.
• Team is on schedule. More time was allocated for frame analysis.
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References
• Owens, T., Anthony, Jarmulowicz, D., Marc, Jones, Peter “Structural Considerations of a Baja SAE Frame,” SAE Technical Paper 2006-01-3626, 2006.
• Silva, Martins, Maira, Oliveira, R. P. Leopoldo, Neto, C. Alvaro, Varoto, S. Paulo, “An Experimental Investigation on the Modal Characteristics of an Off-Road Competition,” SAE Technical Paper 2003-01-3689, 2003.
• Tester, John, Northern Arizona University, personal communication, Nov. 2013.
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